Olusola Babalola's scientific contributions

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Publications (1)

Figure 3. Ranking performance graph results at the known relevant documents
Figure 4. Showing values of 4.74 at F 0.05, 2, 4.74 It is noted that there are presently the value of K = 3 domains, that is, Domains 1, 2, and 3. Therefore, DOF N = K-1 = 3-1 = 2. The sum total of data for all the three domains depicted as 10 + 10 + 10 = 30. Using the DOF D = N-K = 10-3 = 7 and α = 0.05 (the least significant value). The critical value if F 0.05 , 2, 7 = 4.74 (determined using F-Distribution table). We need to find: = mean of mean = ∑ M SB = ∑ and M SW = ∑ The mean of mean was determined as follows: = ∑ = 268+177+202 = 647/30 = 21.6 The mean for each domain are evaluated as follows: Domain 1 = ∑ = 268/10 = 26.8 Domain 2 = ∑ = 177/10 = 17.7 Domain 3 = ∑ = 202/10 = 20.2 The variance for each domain is evaluated as follows:
A Context-Adaptive Ranking Model for Effective Information Retrieval System
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October 2018

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420 Reads

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11 Citations

Kehinde Agbele

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Olusola Babalola

When using Information Retrieval (IR) systems, users often present search queries made of ad-hoc keywords. It is then up to information retrieval systems (IRS) to obtain a precise representation of user's information need, and the context of the information. Context-aware ranking techniques have been constantly used over the past years to improve user interaction in their search activities for improved relevance of retrieved documents. Though, there have been major advances in context-adaptive systems, there is still a lack of technique that models and implements context-adaptive application. The paper addresses this problem using DROPT technique. The DROPT technique ranks individual user information needs according to relevance weights. Our proposed predictive document ranking model is computed as measures of individual user search in their domain of knowledge. The context of a query determines retrieved information relevance. Thus, relevant context aspects should be incorporated in a way that supports the knowledge domain representing users' interests. We demonstrate the ranking task using metric measures and ANOVA, and argue that it can help an IRS adapted to a user's interaction behaviour, using context to improve the IR effectiveness.

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Citations (1)

... The main reason behind the problem is speculating the documents based upon inadequate query terms at the database level and correspondingly ranking them. Although, there exist techniques that either contextually reformulates the user query [8][9][10] or contextually rank the documents using sentence embeddings [11][12][13], but no technique combined both aspects simultaneously. Thus, there is a need for a combined approach that can express the user's information needs at the level of query submission as well as document ranking. ...

Reference:

A Comparative Analysis of Sentence Embedding Techniques for Document Ranking
A Context-Adaptive Ranking Model for Effective Information Retrieval System
Kehinde Agbele

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Olusola Babalola